Temperature measurement with combined photo-luminescent and black body sensing techniques
First Claim
1. An optical temperature measuring sensor, comprising:
- an elongated substantially optically transparent light pipe,a black body cavity held adjacent one end of the light pipe and adapted to send temperature dependent optical emissions thereof along said light pipe, anda quantity of photoluminescent material held adjacent said one light pipe end and adapted to send, when excitation radiation is directed thereagainst along said light pipe, temperature dependent optical emissions thereof along said light pipe.
2 Assignments
0 Petitions
Accused Products
Abstract
High temperature range black body techniques are combined with lower temperature range photoluminescent techniques to provide an optical method and apparatus for measuring temperature over a very wide range. Among the various optical probe configurations disclosed which combine the black body and photoluminescent technologies is an optical temperature measuring probe including an elongated transparent light pipe with a black body cavity and a photoluminescent material adjacent one end of the light pipe. Signal detection and processing can be combined, and temperature measurements made by the photoluminescent technique within an overlap of the two temperature ranges can be used to calibrate measurements made in the higher range by the black body technique.
-
Citations
6 Claims
-
1. An optical temperature measuring sensor, comprising:
-
an elongated substantially optically transparent light pipe, a black body cavity held adjacent one end of the light pipe and adapted to send temperature dependent optical emissions thereof along said light pipe, and a quantity of photoluminescent material held adjacent said one light pipe end and adapted to send, when excitation radiation is directed thereagainst along said light pipe, temperature dependent optical emissions thereof along said light pipe. - View Dependent Claims (6)
-
-
2. The sensor of claim 11 wherein said light pipe is made of sapphire and said photoluminescent material is formed by a diffusion of chromium activator therein.
-
3. The sensor of claim 11 wherein the black body cavity is optically coupled with said light pipe through said one end thereof and the photoluminescent material is optically coupled with said light pipe through a side surface thereof adjacent said one end.
-
4. The sensor of claim 11 wherein the photoluminescent material is optically coupled with said light pipe through said one end thereof and the black body cavity is optically coupled with said light pipe through a side surface thereof adjacent said one end.
-
5. The sensor of claim 11 wherein said black body cavity is formed by a coating of opaque material carried by said one light pipe end and extending a distance therefrom along the light pipe, and wherein said quantity of photoluminescent material is positioned within said cavity.
Specification